bearing thrust

简明释义

轴承推力

英英释义

例句

1.The design of the shaft must account for the bearing thrust 轴承推力 generated during operation.

轴的设计必须考虑到操作过程中产生的轴承推力。

2.The maintenance team checked the bearing thrust 轴承推力 during the routine inspection.

维护团队在例行检查中检查了轴承推力。

3.Excessive bearing thrust 轴承推力 can lead to premature wear of the components.

过大的轴承推力可能导致组件的过早磨损。

4.In a rotating machine, the bearing thrust 轴承推力 is crucial for maintaining stability.

在旋转机器中，轴承推力对于保持稳定性至关重要。

5.The engineer calculated the bearing thrust 轴承推力 to ensure the structure could support the load.

工程师计算了轴承推力以确保结构能够承受负载。

作文

In the field of engineering, particularly in mechanical and structural design, understanding the concept of bearing thrust is crucial. Bearing thrust refers to the force that acts on a bearing in a direction parallel to the shaft. This force is essential in ensuring that rotating machinery operates smoothly and efficiently. When designing systems that involve rotating components, engineers must take into account the bearing thrust, as it can significantly impact the performance and longevity of the equipment.For instance, consider a simple electric motor. Inside the motor, there are bearings that support the rotor, allowing it to spin freely. The bearing thrust generated during operation can lead to wear and tear on these bearings if not properly managed. If the thrust exceeds the bearing's capacity, it may result in premature failure, causing costly downtime and repairs. Therefore, engineers often use various methods to mitigate bearing thrust, such as selecting appropriate bearing materials, using lubrication, and designing the system to distribute forces evenly.Moreover, the implications of bearing thrust extend beyond just mechanical systems. In civil engineering, for example, the concept is also relevant when considering the loads that buildings and structures must withstand. When a building experiences lateral forces, such as those from wind or seismic activity, the foundations and supporting elements must be designed to handle the resulting bearing thrust. Failure to account for these forces can lead to structural failures, highlighting the importance of incorporating this concept into the design process.Additionally, the analysis of bearing thrust is vital in the aerospace industry. Aircraft components, especially those related to propulsion, experience significant thrust forces during operation. Engineers must ensure that the bearings used in engines can handle these forces without compromising safety or performance. The rigorous testing and evaluation of bearing thrust help prevent accidents and improve the reliability of aircraft.In conclusion, the concept of bearing thrust is integral to various engineering disciplines. It influences the design, performance, and safety of numerous mechanical and structural systems. By understanding and managing bearing thrust, engineers can enhance the durability and efficiency of their designs, ultimately leading to better-performing products and safer infrastructures. As technology continues to advance, the importance of accurately calculating and addressing bearing thrust will only grow, underscoring its significance in modern engineering practices.

在工程领域，特别是在机械和结构设计中，理解承载推力的概念至关重要。承载推力指的是作用于轴承的沿轴向平行的力。这种力量对于确保旋转机械的平稳高效运行是必不可少的。在设计涉及旋转部件的系统时，工程师必须考虑承载推力，因为它会显著影响设备的性能和寿命。例如，考虑一个简单的电动机。在电动机内部，有支撑转子、使其自由旋转的轴承。在操作过程中产生的承载推力如果没有得到妥善管理，可能会导致这些轴承的磨损。如果推力超过了轴承的承载能力，可能会导致过早失效，从而造成昂贵的停机和维修。因此，工程师通常采用各种方法来减轻承载推力，例如选择合适的轴承材料、使用润滑剂以及设计系统以均匀分配力。此外，承载推力的影响不仅限于机械系统。在土木工程中，例如，在考虑建筑物和结构必须承受的荷载时，这个概念也很相关。当建筑物经历侧向力时，例如来自风或地震活动的力，基础和支撑元件必须设计成能够处理由此产生的承载推力。如果未能考虑这些力量，可能会导致结构失效，这突显了在设计过程中纳入这一概念的重要性。此外，在航空航天工业中，承载推力的分析至关重要。飞机部件，尤其是与推进相关的部件，在操作过程中会经历显著的推力。工程师必须确保用于发动机的轴承能够在不危及安全或性能的情况下处理这些力量。对承载推力的严格测试和评估有助于防止事故并提高飞机的可靠性。总之，承载推力的概念对于各种工程学科来说是不可或缺的。它影响着众多机械和结构系统的设计、性能和安全性。通过理解和管理承载推力，工程师可以增强其设计的耐用性和效率，最终导致更高性能的产品和更安全的基础设施。随着技术的不断进步，准确计算和处理承载推力的重要性只会增加，突显其在现代工程实践中的重要性。